-module(gleam@dynamic). -compile([no_auto_import, nowarn_unused_vars]). -export([dynamic/1, decode1/2, from/1, unsafe_coerce/1, bit_string/1, classify/1, int/1, float/1, bool/1, shallow_list/1, optional/1, result/2, any/1, string/1, list/1, field/2, element/2, tuple2/2, tuple3/3, tuple4/4, tuple5/5, tuple6/6, map/2, decode2/3, decode3/4, decode4/5, decode5/6, decode6/7, decode7/8, decode8/9, decode9/10]). -export_type([decode_error/0, dynamic/0, unknown_tuple/0]). -type decode_error() :: {decode_error, binary(), binary(), list(binary())}. -type dynamic() :: any(). -type unknown_tuple() :: any(). -spec dynamic(dynamic()) -> {ok, dynamic()} | {error, list(decode_error())}. dynamic(Value) -> {ok, Value}. -spec put_expected(decode_error(), binary()) -> decode_error(). put_expected(Error, Expected) -> erlang:setelement(2, Error, Expected). -spec all_errors({ok, any()} | {error, list(decode_error())}) -> list(decode_error()). all_errors(Result) -> case Result of {ok, _} -> []; {error, Errors} -> Errors end. -spec decode1( fun((CQD) -> CQE), fun((dynamic()) -> {ok, CQD} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CQE} | {error, list(decode_error())}). decode1(Constructor, T1) -> fun(Value) -> case T1(Value) of {ok, A} -> {ok, Constructor(A)}; A@1 -> {error, all_errors(A@1)} end end. -spec from(any()) -> dynamic(). from(A) -> gleam_stdlib:identity(A). -spec unsafe_coerce(dynamic()) -> any(). unsafe_coerce(A) -> gleam_stdlib:identity(A). -spec bit_string(dynamic()) -> {ok, bitstring()} | {error, list(decode_error())}. bit_string(Data) -> gleam_stdlib:decode_bit_string(Data). -spec classify(dynamic()) -> binary(). classify(Data) -> gleam_stdlib:classify_dynamic(Data). -spec int(dynamic()) -> {ok, integer()} | {error, list(decode_error())}. int(Data) -> gleam_stdlib:decode_int(Data). -spec exact_decode_tuple_error(integer(), dynamic()) -> {ok, any()} | {error, list(decode_error())}. exact_decode_tuple_error(Size, Data) -> S = case Size of 0 -> <<""/utf8>>; _ -> <<"s"/utf8>> end, Error = begin _pipe = [<<"Tuple of "/utf8>>, gleam@int:to_string(Size), <<" element"/utf8>>, S], _pipe@1 = gleam@string_builder:from_strings(_pipe), _pipe@2 = gleam@string_builder:to_string(_pipe@1), {decode_error, _pipe@2, classify(Data), []} end, {error, [Error]}. -spec at_least_decode_tuple_error(integer(), dynamic()) -> {ok, any()} | {error, list(decode_error())}. at_least_decode_tuple_error(Size, Data) -> S = case Size of 0 -> <<""/utf8>>; _ -> <<"s"/utf8>> end, Error = begin _pipe = [<<"Tuple of at least "/utf8>>, gleam@int:to_string(Size), <<" element"/utf8>>, S], _pipe@1 = gleam@string_builder:from_strings(_pipe), _pipe@2 = gleam@string_builder:to_string(_pipe@1), {decode_error, _pipe@2, classify(Data), []} end, {error, [Error]}. -spec float(dynamic()) -> {ok, float()} | {error, list(decode_error())}. float(Data) -> gleam_stdlib:decode_float(Data). -spec bool(dynamic()) -> {ok, boolean()} | {error, list(decode_error())}. bool(Data) -> gleam_stdlib:decode_bool(Data). -spec shallow_list(dynamic()) -> {ok, list(dynamic())} | {error, list(decode_error())}. shallow_list(Value) -> gleam_stdlib:decode_list(Value). -spec optional(fun((dynamic()) -> {ok, CNA} | {error, list(decode_error())})) -> fun((dynamic()) -> {ok, gleam@option:option(CNA)} | {error, list(decode_error())}). optional(Decode) -> fun(Value) -> gleam_stdlib:decode_option(Value, Decode) end. -spec result( fun((dynamic()) -> {ok, CMO} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CMQ} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, {ok, CMO} | {error, CMQ}} | {error, list(decode_error())}). result(Decode_ok, Decode_error) -> fun(Value) -> gleam@result:then( gleam_stdlib:decode_result(Value), fun(Inner_result) -> case Inner_result of {ok, Raw} -> gleam@result:then( begin _pipe = Decode_ok(Raw), map_errors( _pipe, fun(_capture) -> push_path(_capture, <<"ok"/utf8>>) end ) end, fun(Value@1) -> {ok, {ok, Value@1}} end ); {error, Raw@1} -> gleam@result:then( begin _pipe@1 = Decode_error(Raw@1), map_errors( _pipe@1, fun(_capture@1) -> push_path(_capture@1, <<"error"/utf8>>) end ) end, fun(Value@2) -> {ok, {error, Value@2}} end ) end end ) end. -spec any(list(fun((dynamic()) -> {ok, CPZ} | {error, list(decode_error())}))) -> fun((dynamic()) -> {ok, CPZ} | {error, list(decode_error())}). any(Decoders) -> fun(Data) -> case Decoders of [] -> {error, [{decode_error, <<"another type"/utf8>>, classify(Data), []}]}; [Decoder | Decoders@1] -> case Decoder(Data) of {ok, Decoded} -> {ok, Decoded}; {error, _} -> (any(Decoders@1))(Data) end end end. -spec push_path(decode_error(), any()) -> decode_error(). push_path(Error, Name) -> Name@1 = from(Name), Decoder = any( [fun string/1, fun(X) -> gleam@result:map(int(X), fun gleam@int:to_string/1) end] ), Name@3 = case Decoder(Name@1) of {ok, Name@2} -> Name@2; {error, _} -> _pipe = [<<"<"/utf8>>, classify(Name@1), <<">"/utf8>>], _pipe@1 = gleam@string_builder:from_strings(_pipe), gleam@string_builder:to_string(_pipe@1) end, erlang:setelement(4, Error, [Name@3 | erlang:element(4, Error)]). -spec string(dynamic()) -> {ok, binary()} | {error, list(decode_error())}. string(Data) -> decode_string(Data). -spec decode_string(dynamic()) -> {ok, binary()} | {error, list(decode_error())}. decode_string(Data) -> _pipe = bit_string(Data), _pipe@1 = map_errors( _pipe, fun(_capture) -> put_expected(_capture, <<"String"/utf8>>) end ), gleam@result:then( _pipe@1, fun(Raw) -> case gleam@bit_string:to_string(Raw) of {ok, String} -> {ok, String}; {error, nil} -> {error, [{decode_error, <<"String"/utf8>>, <<"BitString"/utf8>>, []}]} end end ). -spec map_errors( {ok, CLY} | {error, list(decode_error())}, fun((decode_error()) -> decode_error()) ) -> {ok, CLY} | {error, list(decode_error())}. map_errors(Result, F) -> gleam@result:map_error( Result, fun(_capture) -> gleam@list:map(_capture, F) end ). -spec list(fun((dynamic()) -> {ok, CMV} | {error, list(decode_error())})) -> fun((dynamic()) -> {ok, list(CMV)} | {error, list(decode_error())}). list(Decoder_type) -> fun(Dynamic) -> gleam@result:then(shallow_list(Dynamic), fun(List) -> _pipe = List, _pipe@1 = gleam@list:try_map(_pipe, Decoder_type), map_errors( _pipe@1, fun(_capture) -> push_path(_capture, <<"*"/utf8>>) end ) end) end. -spec field( any(), fun((dynamic()) -> {ok, CNF} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CNF} | {error, list(decode_error())}). field(Name, Inner_type) -> fun(Value) -> _pipe = Value, _pipe@1 = gleam_stdlib:decode_field(_pipe, Name), _pipe@2 = gleam@result:then(_pipe@1, Inner_type), map_errors(_pipe@2, fun(_capture) -> push_path(_capture, Name) end) end. -spec element( integer(), fun((dynamic()) -> {ok, CNI} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CNI} | {error, list(decode_error())}). element(Index, Inner_type) -> fun(Data) -> gleam@result:then( gleam_stdlib:decode_tuple(Data), fun(Tuple) -> Size = gleam_stdlib:size_of_tuple(Tuple), gleam@result:then(case Index >= 0 of true -> case Index < Size of true -> gleam_stdlib:tuple_get(Tuple, Index); false -> at_least_decode_tuple_error(Index + 1, Data) end; false -> case gleam@int:absolute_value(Index) =< Size of true -> gleam_stdlib:tuple_get(Tuple, Size + Index); false -> at_least_decode_tuple_error( gleam@int:absolute_value(Index), Data ) end end, fun(Data@1) -> _pipe = Inner_type(Data@1), map_errors( _pipe, fun(_capture) -> push_path(_capture, Index) end ) end) end ) end. -spec tuple_errors({ok, any()} | {error, list(decode_error())}, binary()) -> list(decode_error()). tuple_errors(Result, Name) -> case Result of {ok, _} -> []; {error, Errors} -> gleam@list:map( Errors, fun(_capture) -> push_path(_capture, Name) end ) end. -spec assert_is_tuple(dynamic(), integer()) -> {ok, nil} | {error, list(decode_error())}. assert_is_tuple(Value, Desired_size) -> Expected = gleam@string_builder:to_string( gleam@string_builder:from_strings( [<<"Tuple of "/utf8>>, gleam@int:to_string(Desired_size), <<" elements"/utf8>>] ) ), gleam@result:then( map_errors( gleam_stdlib:decode_tuple(Value), fun(_capture) -> put_expected(_capture, Expected) end ), fun(Tuple) -> case gleam_stdlib:size_of_tuple(Tuple) of Size when Size =:= Desired_size -> {ok, nil}; _ -> exact_decode_tuple_error(Desired_size, Value) end end ). -spec tuple2( fun((dynamic()) -> {ok, CNZ} | {error, list(decode_error())}), fun((dynamic()) -> {ok, COB} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, {CNZ, COB}} | {error, list(decode_error())}). tuple2(Decode1, Decode2) -> fun(Value) -> gleam@result:then( assert_is_tuple(Value, 2), fun(_) -> {A, B} = unsafe_coerce(Value), case {Decode1(A), Decode2(B)} of {{ok, A@1}, {ok, B@1}} -> {ok, {A@1, B@1}}; {A@2, B@2} -> _pipe = tuple_errors(A@2, <<"0"/utf8>>), _pipe@1 = gleam@list:append( _pipe, tuple_errors(B@2, <<"1"/utf8>>) ), {error, _pipe@1} end end ) end. -spec tuple3( fun((dynamic()) -> {ok, COE} | {error, list(decode_error())}), fun((dynamic()) -> {ok, COG} | {error, list(decode_error())}), fun((dynamic()) -> {ok, COI} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, {COE, COG, COI}} | {error, list(decode_error())}). tuple3(Decode1, Decode2, Decode3) -> fun(Value) -> gleam@result:then( assert_is_tuple(Value, 3), fun(_) -> {A, B, C} = unsafe_coerce(Value), case {Decode1(A), Decode2(B), Decode3(C)} of {{ok, A@1}, {ok, B@1}, {ok, C@1}} -> {ok, {A@1, B@1, C@1}}; {A@2, B@2, C@2} -> _pipe = tuple_errors(A@2, <<"0"/utf8>>), _pipe@1 = gleam@list:append( _pipe, tuple_errors(B@2, <<"1"/utf8>>) ), _pipe@2 = gleam@list:append( _pipe@1, tuple_errors(C@2, <<"2"/utf8>>) ), {error, _pipe@2} end end ) end. -spec tuple4( fun((dynamic()) -> {ok, COL} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CON} | {error, list(decode_error())}), fun((dynamic()) -> {ok, COP} | {error, list(decode_error())}), fun((dynamic()) -> {ok, COR} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, {COL, CON, COP, COR}} | {error, list(decode_error())}). tuple4(Decode1, Decode2, Decode3, Decode4) -> fun(Value) -> gleam@result:then( assert_is_tuple(Value, 4), fun(_) -> {A, B, C, D} = unsafe_coerce(Value), case {Decode1(A), Decode2(B), Decode3(C), Decode4(D)} of {{ok, A@1}, {ok, B@1}, {ok, C@1}, {ok, D@1}} -> {ok, {A@1, B@1, C@1, D@1}}; {A@2, B@2, C@2, D@2} -> _pipe = tuple_errors(A@2, <<"0"/utf8>>), _pipe@1 = gleam@list:append( _pipe, tuple_errors(B@2, <<"1"/utf8>>) ), _pipe@2 = gleam@list:append( _pipe@1, tuple_errors(C@2, <<"2"/utf8>>) ), _pipe@3 = gleam@list:append( _pipe@2, tuple_errors(D@2, <<"3"/utf8>>) ), {error, _pipe@3} end end ) end. -spec tuple5( fun((dynamic()) -> {ok, COU} | {error, list(decode_error())}), fun((dynamic()) -> {ok, COW} | {error, list(decode_error())}), fun((dynamic()) -> {ok, COY} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CPA} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CPC} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, {COU, COW, COY, CPA, CPC}} | {error, list(decode_error())}). tuple5(Decode1, Decode2, Decode3, Decode4, Decode5) -> fun(Value) -> gleam@result:then( assert_is_tuple(Value, 5), fun(_) -> {A, B, C, D, E} = unsafe_coerce(Value), case {Decode1(A), Decode2(B), Decode3(C), Decode4(D), Decode5(E)} of {{ok, A@1}, {ok, B@1}, {ok, C@1}, {ok, D@1}, {ok, E@1}} -> {ok, {A@1, B@1, C@1, D@1, E@1}}; {A@2, B@2, C@2, D@2, E@2} -> _pipe = tuple_errors(A@2, <<"0"/utf8>>), _pipe@1 = gleam@list:append( _pipe, tuple_errors(B@2, <<"1"/utf8>>) ), _pipe@2 = gleam@list:append( _pipe@1, tuple_errors(C@2, <<"2"/utf8>>) ), _pipe@3 = gleam@list:append( _pipe@2, tuple_errors(D@2, <<"3"/utf8>>) ), _pipe@4 = gleam@list:append( _pipe@3, tuple_errors(E@2, <<"4"/utf8>>) ), {error, _pipe@4} end end ) end. -spec tuple6( fun((dynamic()) -> {ok, CPF} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CPH} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CPJ} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CPL} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CPN} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CPP} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, {CPF, CPH, CPJ, CPL, CPN, CPP}} | {error, list(decode_error())}). tuple6(Decode1, Decode2, Decode3, Decode4, Decode5, Decode6) -> fun(Value) -> gleam@result:then( assert_is_tuple(Value, 6), fun(_) -> {A, B, C, D, E, F} = unsafe_coerce(Value), case {Decode1(A), Decode2(B), Decode3(C), Decode4(D), Decode5(E), Decode6(F)} of {{ok, A@1}, {ok, B@1}, {ok, C@1}, {ok, D@1}, {ok, E@1}, {ok, F@1}} -> {ok, {A@1, B@1, C@1, D@1, E@1, F@1}}; {A@2, B@2, C@2, D@2, E@2, F@2} -> _pipe = tuple_errors(A@2, <<"0"/utf8>>), _pipe@1 = gleam@list:append( _pipe, tuple_errors(B@2, <<"1"/utf8>>) ), _pipe@2 = gleam@list:append( _pipe@1, tuple_errors(C@2, <<"2"/utf8>>) ), _pipe@3 = gleam@list:append( _pipe@2, tuple_errors(D@2, <<"3"/utf8>>) ), _pipe@4 = gleam@list:append( _pipe@3, tuple_errors(E@2, <<"4"/utf8>>) ), _pipe@5 = gleam@list:append( _pipe@4, tuple_errors(F@2, <<"5"/utf8>>) ), {error, _pipe@5} end end ) end. -spec map( fun((dynamic()) -> {ok, CPS} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CPU} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, gleam@map:map_(CPS, CPU)} | {error, list(decode_error())}). map(Key_type, Value_type) -> fun(Value) -> gleam@result:then( gleam_stdlib:decode_map(Value), fun(Map) -> gleam@result:then( begin _pipe = Map, _pipe@1 = gleam@map:to_list(_pipe), gleam@list:try_map( _pipe@1, fun(Pair) -> {K, V} = Pair, gleam@result:then( begin _pipe@2 = Key_type(K), map_errors( _pipe@2, fun(_capture) -> push_path( _capture, <<"keys"/utf8>> ) end ) end, fun(K@1) -> gleam@result:then( begin _pipe@3 = Value_type(V), map_errors( _pipe@3, fun(_capture@1) -> push_path( _capture@1, <<"values"/utf8>> ) end ) end, fun(V@1) -> {ok, {K@1, V@1}} end ) end ) end ) end, fun(Pairs) -> {ok, gleam@map:from_list(Pairs)} end ) end ) end. -spec decode2( fun((CQH, CQI) -> CQJ), fun((dynamic()) -> {ok, CQH} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CQI} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CQJ} | {error, list(decode_error())}). decode2(Constructor, T1, T2) -> fun(Value) -> case {T1(Value), T2(Value)} of {{ok, A}, {ok, B}} -> {ok, Constructor(A, B)}; {A@1, B@1} -> {error, gleam@list:flatten([all_errors(A@1), all_errors(B@1)])} end end. -spec decode3( fun((CQN, CQO, CQP) -> CQQ), fun((dynamic()) -> {ok, CQN} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CQO} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CQP} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CQQ} | {error, list(decode_error())}). decode3(Constructor, T1, T2, T3) -> fun(Value) -> case {T1(Value), T2(Value), T3(Value)} of {{ok, A}, {ok, B}, {ok, C}} -> {ok, Constructor(A, B, C)}; {A@1, B@1, C@1} -> {error, gleam@list:flatten( [all_errors(A@1), all_errors(B@1), all_errors(C@1)] )} end end. -spec decode4( fun((CQV, CQW, CQX, CQY) -> CQZ), fun((dynamic()) -> {ok, CQV} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CQW} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CQX} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CQY} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CQZ} | {error, list(decode_error())}). decode4(Constructor, T1, T2, T3, T4) -> fun(X) -> case {T1(X), T2(X), T3(X), T4(X)} of {{ok, A}, {ok, B}, {ok, C}, {ok, D}} -> {ok, Constructor(A, B, C, D)}; {A@1, B@1, C@1, D@1} -> {error, gleam@list:flatten( [all_errors(A@1), all_errors(B@1), all_errors(C@1), all_errors(D@1)] )} end end. -spec decode5( fun((CRF, CRG, CRH, CRI, CRJ) -> CRK), fun((dynamic()) -> {ok, CRF} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CRG} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CRH} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CRI} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CRJ} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CRK} | {error, list(decode_error())}). decode5(Constructor, T1, T2, T3, T4, T5) -> fun(X) -> case {T1(X), T2(X), T3(X), T4(X), T5(X)} of {{ok, A}, {ok, B}, {ok, C}, {ok, D}, {ok, E}} -> {ok, Constructor(A, B, C, D, E)}; {A@1, B@1, C@1, D@1, E@1} -> {error, gleam@list:flatten( [all_errors(A@1), all_errors(B@1), all_errors(C@1), all_errors(D@1), all_errors(E@1)] )} end end. -spec decode6( fun((CRR, CRS, CRT, CRU, CRV, CRW) -> CRX), fun((dynamic()) -> {ok, CRR} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CRS} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CRT} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CRU} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CRV} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CRW} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CRX} | {error, list(decode_error())}). decode6(Constructor, T1, T2, T3, T4, T5, T6) -> fun(X) -> case {T1(X), T2(X), T3(X), T4(X), T5(X), T6(X)} of {{ok, A}, {ok, B}, {ok, C}, {ok, D}, {ok, E}, {ok, F}} -> {ok, Constructor(A, B, C, D, E, F)}; {A@1, B@1, C@1, D@1, E@1, F@1} -> {error, gleam@list:flatten( [all_errors(A@1), all_errors(B@1), all_errors(C@1), all_errors(D@1), all_errors(E@1), all_errors(F@1)] )} end end. -spec decode7( fun((CSF, CSG, CSH, CSI, CSJ, CSK, CSL) -> CSM), fun((dynamic()) -> {ok, CSF} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSG} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSH} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSI} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSJ} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSK} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSL} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CSM} | {error, list(decode_error())}). decode7(Constructor, T1, T2, T3, T4, T5, T6, T7) -> fun(X) -> case {T1(X), T2(X), T3(X), T4(X), T5(X), T6(X), T7(X)} of {{ok, A}, {ok, B}, {ok, C}, {ok, D}, {ok, E}, {ok, F}, {ok, G}} -> {ok, Constructor(A, B, C, D, E, F, G)}; {A@1, B@1, C@1, D@1, E@1, F@1, G@1} -> {error, gleam@list:flatten( [all_errors(A@1), all_errors(B@1), all_errors(C@1), all_errors(D@1), all_errors(E@1), all_errors(F@1), all_errors(G@1)] )} end end. -spec decode8( fun((CSV, CSW, CSX, CSY, CSZ, CTA, CTB, CTC) -> CTD), fun((dynamic()) -> {ok, CSV} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSW} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSX} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSY} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CSZ} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTA} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTB} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTC} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CTD} | {error, list(decode_error())}). decode8(Constructor, T1, T2, T3, T4, T5, T6, T7, T8) -> fun(X) -> case {T1(X), T2(X), T3(X), T4(X), T5(X), T6(X), T7(X), T8(X)} of {{ok, A}, {ok, B}, {ok, C}, {ok, D}, {ok, E}, {ok, F}, {ok, G}, {ok, H}} -> {ok, Constructor(A, B, C, D, E, F, G, H)}; {A@1, B@1, C@1, D@1, E@1, F@1, G@1, H@1} -> {error, gleam@list:flatten( [all_errors(A@1), all_errors(B@1), all_errors(C@1), all_errors(D@1), all_errors(E@1), all_errors(F@1), all_errors(G@1), all_errors(H@1)] )} end end. -spec decode9( fun((CTN, CTO, CTP, CTQ, CTR, CTS, CTT, CTU, CTV) -> CTW), fun((dynamic()) -> {ok, CTN} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTO} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTP} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTQ} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTR} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTS} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTT} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTU} | {error, list(decode_error())}), fun((dynamic()) -> {ok, CTV} | {error, list(decode_error())}) ) -> fun((dynamic()) -> {ok, CTW} | {error, list(decode_error())}). decode9(Constructor, T1, T2, T3, T4, T5, T6, T7, T8, T9) -> fun(X) -> case {T1(X), T2(X), T3(X), T4(X), T5(X), T6(X), T7(X), T8(X), T9(X)} of {{ok, A}, {ok, B}, {ok, C}, {ok, D}, {ok, E}, {ok, F}, {ok, G}, {ok, H}, {ok, I}} -> {ok, Constructor(A, B, C, D, E, F, G, H, I)}; {A@1, B@1, C@1, D@1, E@1, F@1, G@1, H@1, I@1} -> {error, gleam@list:flatten( [all_errors(A@1), all_errors(B@1), all_errors(C@1), all_errors(D@1), all_errors(E@1), all_errors(F@1), all_errors(G@1), all_errors(H@1), all_errors(I@1)] )} end end.